1. Chemistry
1.1. Physical chemistry
1.1.1. Mole consept
1.1.2. Atomic structure
1.1.3. State of matter
1.1.4. Thermodynamics and thermochemistry
1.1.5. Equilibrium
1.1.6. Redox reaction
1.2. Inorganic chemistry
1.2.1. Periodic table
1.2.2. Chemical bonding
1.2.3. Hydrogen
1.2.4. S block
1.2.5. P block
1.3. Organic chemistry
1.3.1. GOC
1.3.2. Hydrocarbon
2. Centre of mass basic properties Com in two particals Com formula Density
3. Maths
3.1. Algebra
3.1.1. Inequality
3.1.2. Set, Relation and Function
3.1.3. Binomial theorem
3.1.4. Quadratic equation
3.1.5. Permutations and combinations
3.1.6. Complex numbers
3.1.7. Mathematical induction
3.1.8. Mathematical reasoning
3.1.9. Statistics
3.1.10. Probability
3.1.11. Sequence and series
3.2. Trigonometry
3.2.1. High and distance
3.2.2. Solution of triangle
3.2.3. Inverse trigonometry function
3.2.4. Trigonometry function and equation
3.3. Geometry
3.3.1. Straight line and point
3.3.2. Circle
3.3.3. Parabola
3.3.4. Ellipse
3.3.5. Hyperbola
3.3.6. 3D geometry
3.4. Calculus
3.4.1. Limits and derivatives
3.4.2. Continuity and differentiability
3.4.3. Integral calculus
3.4.4. Differential equation
3.4.5. Matrices and determinants
3.4.6. Application of derivatives
3.4.7. Application of integral
3.5. Vector
3.5.1. Vector algebra 2D and 3D
4. Physics
4.1. Mechanics
4.1.1. Units and measurement
4.1.2. Kinematics in 2D and 3D
4.1.2.1. Basic kinematics
4.1.2.1.1. Distance and displacement
4.1.2.1.2. Speed and velocity
4.1.2.1.3. Acceleration
4.1.2.1.4. Uniform frame and non-uniform frame
4.1.2.1.5. Constant acceleration motion
4.1.2.2. Vector
4.1.2.2.1. Vector in 2D and 3D , and basic properties
4.1.2.2.2. Dot product and cross product
4.1.2.3. Graph
4.1.2.4. Projectile motion
4.1.2.4.1. Horizontal projectile
4.1.2.4.2. Incline plane projectile
4.1.2.5. Relative motion
4.1.2.5.1. Motion in 1D
4.1.2.5.2. Distance of closest approch
4.1.2.5.3. Relative motion in projectile
4.1.2.5.4. River crossing
4.1.2.5.5. Rain man problem
4.1.2.6. Extra
4.1.3. Laws of motion
4.1.3.1. 1st, 2nd and 3rd law of motion
4.1.3.1.1. 2nd law
4.1.3.1.2. 3rd law
4.1.3.2. Constrained moiton
4.1.3.3. Force
4.1.3.3.1. Weight force
4.1.3.3.2. Normal force
4.1.3.3.3. Pseudo force
4.1.3.3.4. Spring force
4.1.3.3.5. Friction force
4.1.3.4. System
4.1.3.4.1. Acceleration bodies
4.1.3.4.2. Block on block system
4.1.3.5. Extra
4.1.4. Work, energy and power
4.1.4.1. Work
4.1.4.1.1. Formula and basic
4.1.4.1.2. Work by
4.1.4.2. Energy
4.1.4.2.1. Types of energy
4.1.4.2.2. Conservative and non conservative force
4.1.4.2.3. Equilibrium Relation between force and potential energy
4.1.4.2.4. Work energy theorem
4.1.4.3. Power
4.1.4.4. Extra
4.1.5. Circular motion
4.1.5.1. Kinematics of circular motion
4.1.5.2. Dynamics of circular motion
4.1.5.3. Vehicle motion in circular path
4.1.5.3.1. In horizontal circular path
4.1.5.3.2. In incline circular path
4.1.5.4. some circular moiton
4.1.5.4.1. Rotating disk
4.1.5.4.2. Death well
4.1.5.4.3. Conical pendulum
4.1.5.4.4. Rotating ring
4.1.5.4.5. Simple pendulum
4.1.5.4.6. Vertical circle
4.1.5.5. 1st law
4.1.5.6. Extra
4.1.6. Centre of mass
4.1.6.1. Com formula for some shapes
4.1.6.2. Com's 1D motion and projectile motion movement conservation and energy conservation
4.1.6.3. Extra
4.1.7. Collision
4.1.8. Rotational motion
4.1.9. Gravitation
4.1.10. Mechanical properties of solids
4.1.11. Mechanical properties of liquid
4.1.11.1. Fluid statics
4.1.11.1.1. Pressure Density Bouancy force
4.1.11.2. Fluid dynamics
4.1.11.2.1. Barnoulli's principal
4.1.11.2.2. Archimedes principal
4.1.11.2.3. Pascal law
4.1.11.2.4. Torricelli's principal
4.1.11.2.5. Ventury meter
4.1.11.2.6. Reynolds number
4.1.11.2.7. Poiseuilles law
4.1.11.3. Viscosity Stokes law Terminal velocity
4.1.11.4. Surface tension
4.1.11.5. Capillarity
4.1.11.6. Extra
4.1.12. Oscillation
4.1.12.1. Displacement, phase, velocity and acceleration in SHM
4.1.12.2. Energy in SHM
4.1.12.3. SHM in circular motion method
4.1.12.4. Time period and frequency in spring block system
4.1.12.5. Simple Pendulum
4.1.12.6. Combinations of SHM
4.1.12.7. Damped, forced oscillations and resonance
4.1.12.8. Extra
4.1.13. Waves
4.1.13.1. Basic of waves
4.1.13.2. Vibration of spring and organ pipe
4.1.13.3. Beats Interference Superposition of waves
4.1.13.4. Doppler's effect
4.1.13.5. Extra
4.2. Thermodynamics
4.2.1. Thermal properties
4.2.1.1. Calorimetry
4.2.1.2. Thermal expansion
4.2.1.3. Heat transfer
4.2.1.4. Thermometer
4.2.1.5. Newton's law of cooling
4.2.2. Thermodynamics
4.2.2.1. First law of thermodynamics
4.2.2.2. Spesific heat capacity
4.2.2.2.1. Carnot engine and refrigerator
4.2.2.3. Thermodynamical prosess
4.2.2.4. Second law of thermodynamics
4.2.3. Kinetic theory of gases
4.2.3.1. Kinetic theory of ideal gases and gas law
4.2.3.2. Speed of gas and pressure
4.2.3.3. Kinetic energy
4.2.3.4. Deegree of freedom and mean free path
4.2.3.5. Specific mean capacity